The Circadian Rhythms of Intestinal Stress: An analysis of Mechanism and Conservation

肠道应激的昼夜节律：机制与保守性分析

• 批准号: RGPIN-2015-03656
• 负责人: Karpowicz, Phillip
• 金额: $ 2.4万
• 依托单位: University of Windsor
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=685067
• 关键词: Circadian; Rhythms; Intestinal; Stress; analysis

Environmental stress affects all animals, which have evolved to recover effectively in order to survive. The intestine is a tissue that experiences frequent environmental stress because harmful pathogens and chemicals are often eaten. Its stress response is evolutionarily conserved from insects to mammals: the same genes and molecular pathways activate stem cells in the intestine to divide and replace damaged cells. Using the fruit fly, Drosophila, we discovered that the intestinal stress response occurs with a 24h cycle, and that the circadian clock guides this process in stem cells. Circadian clocks are a system of light-sensitive genes that are present in all organisms to keep track of time. Using light levels, the circadian clock regulates day/night activity in behaviour and other processes, the full extent of which is only beginning to be appreciated. ******The idea that stress signaling is regulated by the circadian clock, is a novel topic, and this proposal will enlist 5 graduate and 10 undergraduate students to study this area. Using Drosophila as a model system, we will study the biochemical mechanisms underlying clock-regulation of the intestine. We have built a new fluorescent reporter of circadian clock activity, which will be used to record how the different cells of the intestine respond to light. We will perform a genetic screen in intestinal stem cells to find new clock targets for future study. Finally, we will investigate how a gene involved in inflammation, which may be driven by the clock, links time of day to the stress response. ******A bigger question is whether circadian control of stress and repair is evolutionarily conserved, and how animals in nature adapt to seasonal light level changes. We will explore these processes in Chinook salmon, in collaboration with the Great Lakes Institute for Environmental Research. Salmon occupy a great range of habitats, and experience tremendous seasonal light/dark changes when they migrate north during their life cycle. This makes salmon an ideal model system to answer this question. ******Drosophila genetics are a powerful system to investigate basic mechanisms which occur in all animals. Our long term goals are to apply insights from Drosophila to study the timing of the stress response in different animals in the laboratory, in cell culture, and in nature.

环境压力影响所有动物，它们为了生存而进化到有效恢复。肠道是一种经常经历环境压力的组织，因为有害的病原体和化学物质经常被吃掉。从昆虫到哺乳动物，它的应激反应在进化上是保守的：相同的基因和分子途径激活肠道中的干细胞分裂并取代受损细胞。使用果蝇，果蝇，我们发现肠道应激反应以24小时为一个周期，并且生物钟在干细胞中指导这一过程。生物钟是一种存在于所有生物体中的光敏基因系统，用于跟踪时间。利用光照水平，生物钟调节行为和其他过程中的日/夜活动，其完整程度才刚刚开始被理解。** 压力信号受生物钟调节的想法是一个新的课题，本提案将招募5名研究生和10名本科生研究这一领域。以果蝇为模型系统，我们将研究肠道生物钟调控的生化机制。我们已经建立了一个新的生物钟活动的荧光报告器，它将用于记录肠道的不同细胞如何对光做出反应。我们将在肠道干细胞中进行遗传筛选，为未来的研究寻找新的生物钟靶点。最后，我们将研究一个参与炎症的基因，它可能是由生物钟驱动的，如何将一天中的时间与压力反应联系起来。 ** 一个更大的问题是，压力和修复的昼夜节律控制是否在进化上是保守的，以及自然界中的动物如何适应季节性光照水平的变化。我们将与五大湖环境研究所合作，在奇努克鲑鱼中探索这些过程。鲑鱼占据了很大范围的栖息地，并在其生命周期中向北迁移时经历巨大的季节性光/暗变化。这使得鲑鱼成为回答这个问题的理想模型系统。** 果蝇遗传学是研究所有动物中发生的基本机制的强大系统。我们的长期目标是应用果蝇的见解来研究实验室、细胞培养和自然界中不同动物的应激反应时间。